RU2174453C1 - Deflecting sprinkler nozzle - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: sprinkler nozzle has threaded sleeve and casing rigidly mounted on outer surface of nozzle. Nozzle cavity is made in the form of truncated cone. Decreasing through section of nozzle is oriented toward deflector. Each pole is made in the form of curved T-shaped beam of variable section, with section area increasing toward deflector. Poles are positioned in star arrangement and joined to deflector. Each pair of poles defines Y-shaped slot. Deflector core sharpened end is defined by semispherical recesses between joined pairs of poles. Nozzle of such construction provides for wider range of drop sizes and is used for irrigation of agricultural crops, such as cereals, fodder crops, perennial grasses, industrial crops, as well as for keeping natural pastures. EFFECT: increased efficiency, enhanced reliability in operation and simplified construction. 2 dwg

Description

 The invention relates to techniques for irrigation of crops and can be used in agriculture in irrigated agriculture for the cultivation of cereal crops, forage crops in the form of perennial seeded grasses, industrial crops, and also for maintaining pastures with natural grasses.

Known sprinkler nozzle containing a nozzle, an elastic element and a housing with a flow regulator, in which in order to ensure the effect of falling rain while maintaining a constant flow of water and simplify the design, the elastic element is made in the form of a spherical divider mounted in front of the nozzle on a movable base, pivotally connected to the housing nozzles, and the flow regulator - in the form of a clamp covering the body and base (see SU, copyright certificate N 611680. Mcl. ² 05 V 1/18. Sprinkler nozzle / VP Shcherbakov. Declared 12/28/1976, op blikovat 06/25/1978).

 The disadvantages of the described nozzle include design complexity, low operational reliability, clogging of the nozzle with mineral raw materials and vegetable suspensions, poor rain quality due to the heterogeneity of the size of the drops.

Also known is a nozzle containing a housing with an inlet channel, a divider with two parallel channels and a nozzle, in which, in order to increase its reliability and improve operating conditions, the housing is made with a confuser channel located between the outlet openings of the divider’s parallel channels and the nozzle, and the output the holes of the parallel channels smoothly mate with the inlet of the channel - confuser with the formation of undercuts, and the input cross section of the nozzle is made in the form of a rectangle, the longitudinal axis is orogo perpendicular plane passing through the axis of the deflector channel; the ratio of the length of the longitudinal axis of the outlet nozzle cross section to the length of its transverse axis is chosen to be 1.7-2.3, the ratio of the area of the nozzle exit section to the sum of the areas of the divider channels is chosen to be 2.5-3, and the ratio of the length of the channel - confuser to the length of the longitudinal nozzle cross-section axis - 0.8 - 1.1 (SU, copyright certificate N 1171098. M.kl ⁴ V 05 V 1/18, 1/4. Nozzle / V.D. Krivko, I.Kh. Rotenberg, V .I. Priest. Declared September 28, 1983, published August 7, 1985).

 The disadvantages of the described nozzles include low operational reliability. When irrigation water is taken in by a water intake device, for example, a DDA-100VX two-console sprinkler unit, despite the presence of a floating valve, not only water but also mineral suspensions and plant residues are sucked from the canal. The narrowed part of the nozzle is clogged last. Cleaning clogged nozzles is problematic.

In addition to the above, the nozzles of the sprinkler apparatus are known, comprising a housing, a deflector fixed to the rack and a nozzle with a central hole, in which, in order to provide the possibility of regulating rain intensity during irrigation, the nozzle is made of a shape memory material with a reduction of the central hole from a larger diameter to a smaller one heating, and the rack is made of the same material as the nozzle with a mass equal to the mass of the nozzle; it is equipped with a power source and adjustable resistance, while the stand and nozzle are electrically connected to each other and connected to a power source through an adjustable resistance (SU, copyright certificate N 1616711. M.cl. ⁵ V 05 V 1/18, 1/16. Nozzles sprinkler apparatus // V. B. Kovshevatsky. Declared January 13, 1989, published December 30, 1990).

 The disadvantages of this nozzle include low operational reliability. When the cavity between the spring and the nozzle is clogged, the nozzle stops working.

The closest analogue to the claimed object is a sprinkler deflector nozzle containing a housing mounted on the racks, connecting the pillar support with a deflector mounted on it and placed in the housing with the possibility of rotation of the fluid flow regulator in which in order to increase the reliability of the nozzle, the quality of the spray and the expansion of technological capabilities the fluid flow regulator is made in the form of a cylindrical liner with diametrically located channels of different diameters, and the deflector is made with the central channel and is equipped with a core placed in the latter with the possibility of axial movement (SU, copyright certificate N 923635. M. class ³ V 05 1/18, 05 V 1/26, 05 V 1/30. Sprinkler baffle nozzle / L .B. Nodel. Claimed 05/27/1980, published 04/30/1982).

 The disadvantages of the above nozzles are low operational reliability and poor spray quality.

 The invention consists in the following.

 The task to which the claimed invention is directed is the expansion of technological capabilities.

 EFFECT: increased operational reliability, simplified design, expanded range of droplet sizes.

 The specified technical result is achieved by the fact that in the known sprinkler baffle nozzle comprising a housing with racks and a deflector mounted on the nozzle, according to the invention, the housing provided with a threaded sleeve is mounted with the possibility of a fixed position on the outer surface of the nozzle, the cavity of which is made in the form of a truncated cone, decreasing the passage section which is oriented towards the deflector, each pillar is made curved in the form of a T-shaped beam of variable cross section, increasing toward the deflector, with the racks placed star-shaped on the body and mated with the deflector in such a way that each pair of racks forms a Y-shaped cut, and the tip of the deflector core is formed by hemispherical recesses between the mating pairs of racks.

 The invention is illustrated by drawings, where in FIG. 1 shows a sprinkler baffle nozzle, a plan view; in FIG. 2 is a section AA in FIG. 1, the diametrical section of the nozzle, shaped nut, housing, one of the racks and the core deflector.

 The sprinkler nozzle contains a housing 2 mounted on the nozzle 1 with struts 3, 4, 5, 6 and 7 and a deflector 8. The housing 2 is equipped with a threaded sleeve 9 and mounted with the possibility of a fixed position on the outer surface of the nozzle 1. On the threaded part 10 of the nozzle 1 is installed shaped nut 11 for fixing in the working position of the body 2 of the nozzle. The cavity 12 of the nozzle 1 is made in the form of a truncated cone. The decreasing passage section of the nozzle 1 is oriented towards the deflector 8. Each column 3-7 is made curved in the form of a T-beam of variable cross section. The cross section of the struts 3-7 increases in the direction of the deflector 8. The struts 3-7 on the casing 2 are star-shaped. Racks 3-7 are associated with the deflector in such a way that each pair of racks forms a Y-shaped cutout 13 (see Fig. 1). The point 14 of the core 15 of the deflector 8 is formed by hemispherical recesses 16 between the mating pairs of racks 3-4, 4-5, 5-6, 6-7, 7-3. The housing 2 of the rack 3-7 and the deflector 8 are made as a single part. The rigidity of the racks 3-7 give stiffeners 17.

 Sprinkler deflector nozzle works as follows.

 The nozzle 1 is screwed into the nipple of a water distribution pipe, for example, a DDA-100VX double-console unit. When the pump is operating, the irrigation water is sucked in by the floating valve from the irrigation channel and enters the pipeline under operating pressure. Irrigation water flows from the pipeline into the cavity 12 of the nozzle 1. Due to the decreasing section of the cavity of the nozzle 12, the flow rate of the water increases and the tapering directional jet meets the tip 14 of the core 15 of the deflector 8. Due to this, the jets are divided into sectors along hemispherical recesses 16 directed into space Y-shaped cutouts 13. Hemispherical recesses 16 streams in sectors when meeting with the air stream, as well as with the jets of adjacent cutouts 13 are broken into raindrops, which during dynamic collisions x with leaf surfaces crops does not lead to mechanical damage.

 Along the length of the water supply pipe, the pressure to the cantilever part of the farm drops. For this reason, each nozzle is individually adjusted. Unscrewing the shaped nut 11, the housing 2 is screwed onto the threaded part 10 of the nozzle 1 in the direction of the nipple. The required position of the nozzle body 2 on the nozzle 1 is fixed with a shaped nut 11.

 The presence of the tip 14 and hemispherical recesses 16 of the deflector 8 and its interface with the housing 2 by means of curved racks 3-7 excludes clogging with plant residues and mineral debris. The threaded connection of the nozzle 1 with the housing 2 allows a wide range of operating pressures in the pipeline of any irrigation machine to obtain the required rain quality, acceptable for irrigation of both vegetable and industrial crops.

 Thus, the proposed nozzle ensures the achievement of the required technical result.

Claims (1)

 Sprinkler deflector nozzle comprising a housing mounted on the nozzle with uprights and a deflector, characterized in that the housing provided with a threaded sleeve is mounted with the possibility of a fixed position on the outer surface of the nozzle, the cavity of which is made in the form of a truncated cone, the decreasing passage section of which is oriented towards the deflector, each the rack is made curved in the form of a T-beam of variable cross section, increasing towards the deflector, while the racks are placed star-shaped on housing and are associated with the deflector in such a way that each pair of racks forms a Y-shaped cut, and the tip of the core of the deflector is formed by hemispherical recesses between the mating pairs of racks.

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